// Copyright (c) Advanced Micro Devices, Inc., or its affiliates.
// SPDX-License-Identifier: MIT

#pragma once

template <typename Layout>
static constexpr inline auto is_row_major(Layout layout_)
{
    return ck_tile::bool_constant<std::is_same_v<ck_tile::remove_cvref_t<decltype(layout_)>,
                                                 ck_tile::tensor_layout::gemm::RowMajor>>{};
}

auto calculate_rtol_atol(const ck_tile::index_t K,
                         const ck_tile::index_t kbatch,
                         const float max_accumulated_value)
{
    using ComputeTypeAB =
        std::conditional_t<sizeof(A0DataType) < sizeof(B0DataType), A0DataType, B0DataType>;

    using ComputeType =
        std::conditional_t<sizeof(ComputeTypeAB) < sizeof(D0DataType), ComputeTypeAB, D0DataType>;
    // Calculate thresholds
    const auto rtol = ck_tile::get_relative_threshold<ComputeType, EDataType, AccDataType>(
        ck_tile::integer_divide_ceil(K, kbatch));

    const auto atol = ck_tile::get_absolute_threshold<ComputeType, EDataType, AccDataType>(
        max_accumulated_value / kbatch, ck_tile::integer_divide_ceil(K, kbatch));

    // Calculate error due to split_k accumulation
    const auto rtol_split_k =
        ck_tile::get_relative_threshold<EDataType, EDataType, EDataType>(kbatch);

    const auto atol_split_k = ck_tile::get_absolute_threshold<EDataType, EDataType, EDataType>(
        max_accumulated_value, kbatch);

    // Use higher threshold
    return ck_tile::make_tuple(std::max(rtol, rtol_split_k), std::max(atol, atol_split_k));
}
